about
Integrin linked kinaseInsulin like growth factor 1Insulin-like growth factor 1LactotransferrinInterleukin 6GLI-Kruppel family member GLI3Catenin (cadherin associated protein), beta 1Bone morphogenetic protein 7Bone morphogenetic protein 2Bone morphogenetic protein 4Bone morphogenetic protein 6SMAD family member 1SMAD family member 5SMAD family member 5Bone morphogenetic protein receptor, type 1AActivin A receptor, type 1Activin receptor IIAActivin receptor IIBRunt related transcription factor 2Interleukin 6 signal transducerLamin AGrowth differentiation factor 2Growth differentiation factor 10Bone morphogenetic protein receptor, type 1BMultiple endocrine neoplasia 1Transformation related protein 63Catenin beta interacting protein 1Wingless-type MMTV integration site family, member 4Gap junction protein, alpha 1Catenin beta 1JunD proto-oncogene, AP-1 transcription factor subunitF-box protein 5Guanine nucleotide-binding protein G(s) subunit alpha isoforms XLasGlycerophosphodiester phosphodiesterase domain containing 2FAM20C golgi associated secretory pathway kinaseBone morphogenetic protein receptor type 2Msh homeobox 2PDZ and LIM domain 7Zinc fingers and homeoboxes 3Chloride intracellular channel 1
P682
Isolation and characterization of a novel plasma membrane protein, osteoblast induction factor (obif), associated with osteoblast differentiationGp130 activation by soluble interleukin-6 receptor/interleukin-6 enhances osteoblastic differentiation of human bone marrow-derived mesenchymal stem cellsImpact of zinc fingers and homeoboxes 3 on the regulation of mesenchymal stem cell osteogenic differentiationBMP-2/4 and BMP-6/7 differentially utilize cell surface receptors to induce osteoblastic differentiation of human bone marrow-derived mesenchymal stem cellsIFITM1 increases osteogenesis through Runx2 in human alveolar-derived bone marrow stromal cellsNoncanonical Wnt-4 signaling enhances bone regeneration of mesenchymal stem cells in craniofacial defects through activation of p38 MAPKWISP-1/CCN4 regulates osteogenesis by enhancing BMP-2 activityMicroRNA-208 modulates BMP-2-stimulated mouse preosteoblast differentiation by directly targeting V-ets erythroblastosis virus E26 oncogene homolog 1MicroRNA-4739 regulates osteogenic and adipocytic differentiation of immortalized human bone marrow stromal cells via targeting LRP3.Long non-coding RNA HIF1A-AS2 facilitates adipose-derived stem cells (ASCs) osteogenic differentiation through miR-665/IL6 axis via PI3K/Akt signaling pathway
P921
Q11913806-E8DF9B85-4BE1-4ED0-9F82-0F7E83CC3090Q1263065-78911560-9713-4C45-BEC1-F50227643438Q14863723-AA8C63D1-946C-49DC-9421-3418382E2657Q14864018-D8865637-3593-4A75-8CE1-0F8475A47E82Q14865240-9087F742-92CB-4B68-82D5-7ECCD3A57843Q14886933-D4D0301D-A02E-449A-80D2-8943D53A39F9Q14902827-436BC0C3-59A1-4703-8502-D6F1E159C10CQ14903113-56457F89-3918-403D-969A-CF31B6115001Q14903156-FE7205DB-9742-4920-B450-992B4393D75FQ14903410-1833F5ED-3A1B-4C7F-8E40-FBF0E5364B88Q14903751-34D58566-BC04-4A53-B32E-74C451D42EA9Q14903821-BA3ABC21-1648-4B56-8F43-F846E9012E69Q14904349-225FA6A5-28F5-4E2A-9306-A784B3AF1FF4Q14904355-FF62D647-0A32-4028-9A42-89072F7138CBQ14904969-04CF3E18-D5EB-4E34-9015-D7C35EB510C0Q14905144-9FF0EBB6-A606-464A-96BC-37DF5FCFC8DDQ14905173-65CEDDAE-3709-4CB5-A565-A5E3ACA1332EQ14905181-9357C347-AD3B-465C-8120-F474A5B3409DQ14907088-01C2E3AF-FD8E-49B4-92F7-A7456C81B8BEQ14907600-6FF1A2A4-1BD9-41C9-AD4E-8D1F7859D0F9Q14911833-E5C86B3F-7F0C-4EC7-9F56-52ADCE51CFFBQ14912038-CCB5718D-3086-4117-95E4-B3A15C3A6FCAQ14912144-CF3741B7-2CF4-494F-BF7B-803ADCEBB5EDQ14912960-99B52A20-6250-43B2-95F9-C8E983352FA6Q14913043-C7156560-6D16-4B41-923A-2CB8F875C44DQ15314027-B1D4D3E2-E914-47D8-B9FD-40366681BF8EQ15314802-15473B31-02D0-475A-A42F-1ABB871A2E3CQ15321888-339E681E-04F4-42EB-BF79-C5185358FA5CQ15330604-F4D4CC68-D3DD-43AA-8F2E-2C109E066AF5Q1634046-E0FD7EA3-9119-4475-89D0-A8C7503C3F3AQ21097231-5EC0F55E-5C7C-4DA7-B826-8A85311A1940Q21100641-0817E8BE-43DD-4419-A588-3B8A2178050BQ21102044-0F9EC89B-6BA5-4732-A319-2E37C7836A9CQ21103127-9D5E93C2-9F38-4ABD-BED2-724DC77D1411Q21106073-6E2B0D0C-5B3A-45BD-9EAC-D301DD1236DAQ21106712-1733B7DC-DACF-41FD-8F40-DC18780C4DDEQ21108071-CF591642-A2F4-44E5-B595-7CD136F977FDQ21108753-A576F8C3-6CEB-4BBB-A4BB-38FEF8630F64Q21109063-F4FC8EBD-A52E-4BB6-88DE-AE422599BA19Q21109779-6C745DD3-267E-45F1-A356-C55079615D90
P682
Q24292970-6F153862-9CCA-45E4-8687-1ACE600D3E39Q24310230-02CA98E9-9E28-419F-B4DF-E26FE41D5517Q24318885-B900B0C5-2546-43DF-9F7F-37622715AF04Q24328930-8F56DF8A-6A52-47AD-8698-3668CE9CD06CQ24336688-5ECD55FB-1396-4EFA-91C1-BCEE18FEE2D3Q24338390-8E0F3B87-65CB-4F25-A3AD-F7C59711735BQ24635850-D0537ECC-669C-4D3D-BF14-89B360A5D5A7Q28115930-A3D273C2-2A62-4251-BB82-54DB4FACCD68Q38878219-4EF36664-2D03-411E-AFF6-2D13F62C079DQ60045117-C9DBA557-B714-43FC-B686-0055AEB7D027
P921
description
Any process that activates or ...... of osteoblast differentiation.
@en
biologisch proces
@nl
name
positive regulation of osteoblast differentiation
@en
type
label
positive regulation of osteoblast differentiation
@en
altLabel
GO:0045669
@en
up regulation of osteoblast differentiation
@en
up-regulation of osteoblast differentiation
@en
upregulation of osteoblast differentiation
@en
prefLabel
positive regulation of osteoblast differentiation
@en
P279
P279
P2888
P686
GO:0045669